Larry Baylor Corporate Fellow, Interim Section Head, Fusion Nuclear Science, Technology, and Engineering, and Group Leader Contact BAYLORLR@ORNL.GOV All Publications Shear Strength and Release of Large Cryogenic Pellets from the Barrel of a Shattered Pellet Injector for Disruption Mitigation Methods to determine the radiated power in SPI-mitigated disruptions in JET Analysis of the Shattered Pellet Injection Fragment Plumes Generated by Machine Specific Shatter Tube Designs Spatially dependent modeling and simulation of runaway electron mitigation in DIII-D Observation of non-thermal electron formation during the thermal quench of shattered pellet injection shutdowns in DIII-D Shatter Thresholds and Fragment Size Distributions of Deuterium–Neon Mixture Cryogenic Pellets for Tokamak Thermal Mitigation Design of a Continuous Pellet Fueling System for Wendelstein 7-X Shattered pellet penetration in low and high energy plasmas on DIII-D Localized divertor leakage measurements using isotopic tungsten sources during edge-localized mode-y H-mode discharges on DIII-D Experimental Pellet Shatter Thresholds and Analysis of Shatter Tube Ejecta for Disruption Mitigation Cryogenic Pellets Overview of the JET preparation for deuterium–tritium operation with the ITER like-wall... Overview of the JET preparation for deuterium–tritium operation with the ITER like-wall DIII-D research towards establishing the scientific basis for future fusion reactors Injection of multiple shattered pellets for disruption mitigation in DIII-D... Study of argon assimilation into the post-disruption runaway electron plateau in DIII-D and comparison with a 1D diffusion model Utilizing M3D-C1 to understand triggering of ELMs in DIII-D pellet pacing experiments Shattered pellet injection technology design and characterization for disruption mitigation experiments Impact of ELM control techniques on tungsten sputtering in the DIII-D divertor and extrapolations to ITER Development of Solenoid-Driven and Pneumatic Punches for Launching High-Z Cryogenic Pellets for Tokamak Disruption Mitigation Experiments Design and Modeling of Vacuum Pumping for Steady-State Pellet Fueling Systems Core Fueling of DEMO by Direct Line Injection of High-Speed Pellets From the HFS Core Fueling of DEMO by Direct Line Injection of High-Speed Pellets From the HFS Pellet-Injector Technology—Brief History and Key Developments in the Last 25 Years Characterization of an electrothermal plasma source for fusion transient simulations State of the art and perspective of high-speed pellet injection technology Pagination First page « First Previous page ‹‹ Page 1 Current page 2 Page 3 … Next page ›› Last page Last » Key Links Google Scholar ORCID Organizations Fusion and Fission Energy and Science Directorate Fusion Energy Division Fusion Nuclear Science, Technology, and Engineering Section Blanket and Fuel Cycle Group
News ORNL fusion scientists are working to make measurements of plasma disruption mitigation methods more accurate
